ES2520915T3 - Easy open ream wrap - Google Patents

Abstract

A stack of cut sheets of paper wrapped with a protective wrapping material (13) that encloses the stack and folded so that the overlapping flaps (20) of the wrapping material cover the opposite ends of the stack, wherein said flaps (20) overlays are secured and sealed together only in selected areas (14, 15) comprising a small part of the overlapping flaps (20), in which said sealed areas (14, 15) consist of two bands (14, 15) parallel separated by a distance that is greater than the width of each of said bands (14, 15), in which said bands (14, 15) extend along the width of the stack, said zones ( 14, 15) sealed have a burst resistance, measured according to TAPPI 403, from 965 to 1,379 kPa (140 and 200 pounds / square inch) to prevent accidental opening of the envelope (13) but, at the same time, they are relatively easy to separate when you want to open the envelope (13) to leading to the cut paper sheets, said outer overlapping flap (20) comprises an unsealed free edge (19) that can be grasped to facilitate the opening of the stack of wrapped cut paper sheets, and in which said bands (14 , 15) are separated from said unsealed free edge (19) of said outer overlapping flap (20).

Description

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DESCRIPTION

Easy open ream wrap

Technical Field:

The present invention relates, in general, to wrappers for reams of cut paper and, in particular, to a wrapper for reams that is easy to open.

Background of the technique:

Typically, cut paper sheets for use in photocopiers, printers and similar equipment are packaged in stacks containing 100 to 800 sheets of paper, depending on the type of paper being packaged and its purpose. Normally, a ream of paper contains 500 sheets but, as used herein, a ream is intended to include a stack of cut sheets, regardless of the number of sheets in the stack. Packages or reams are normally wrapped or covered individually with a ream wrapping material and the reams wrapped are normally packaged in a box or cardboard for shipping and storage. The ream wrap keeps the sheet pile intact, protects the wrapped paper against physical damage and moisture absorption during transport and storage, and also protects the paper during handling and storage at the point of sale and / or point of sale. use. When the need arises to load paper in a machine that uses the paper, the ream wrap is removed from one or more reams of paper and the paper is placed in the container or other compartment of the machine to supply paper to the machine during its functioning.

Typically, the ream wrap comprises paper, or paper coated with a moisture-resistant material or else treated to obtain a desired property, or a polyethylene film that may consist of a relatively large thickness monolayer film or a composite of two or more layers separated plastic films, lighter, laminated together with an adhesive. The wrapper is applied by placing a stack of cut sheets of paper on a sheet of ream wrapping material that is then moved through a packaging machine that folds the wrap around the stack and seals to hold the stack. . Normally, the wrap is applied so that two long edges extend in the longitudinal direction of the stack and overlap in the middle of the top of the stack. These overlapping edges can be thermally sealed or can be glued together with glue and, in a finished package, the longitudinal seam produced by these overlapping edges, sealed together, is on the bottom surface of the package. Next, the longitudinally bonded wrap is folded inwardly on the sides where it extends beyond the ends of the stack, followed by a folded inwardly of the material extending beyond the ends of the stack in the part upper and lower, defining two overlapping flaps. This material folded inwards at the ends of the stack is adhesively bonded, or thermally sealed to secure the wrap around the ream of paper.

For example, the adhesive is normally used in paper wraps and, sometimes, in polyethylene wraps, to secure the wrapping material superimposed on the ends of a ream. Generally, the seals produced by means of adhesive are of lower quality compared to thermal seals, especially when used in a polyethylene wrap, since the adhesive can reach the cut sheets of paper and precise positioning and a quantity of Applied adhesive can be difficult to control.

In a ream wrap that is thermally sealed, the wrapper comprises a heat sealable material, which may comprise a polyethylene film or a coated paper or other heat sealable material that is capable of being fused by the application of heat. The ends of the wrapped ream, where the wrap is folded inward and superimposed, are thermally sealed by the application of heat to fuse the material. In conventional heat sealing systems, a tape at each end of the wrapped reams directs the reams through a heating zone that has one or more hot plates positioned on each side of the area and, as the ream is directed through In the heating zone, the plates apply heat to the ends of the wrapped ream to fuse the envelope where it overlaps at the ends. In conventional machines, the plates apply heat to the entire end of the wrapped package, so that the entire area of the overlapping wrapping material is fused and sealed. This results in a strong bond that is not likely to break during handling and storage, but is also difficult to open.

Document US 2,354,989 A refers to a method and an apparatus for wrapping items, boxes, packages

or the like, with flexible materials susceptible to heat sealing. In addition, this document refers to securing each other. To avoid overheating the fusible wrapping material, such as Pliofilm and Cellophane, heat sealing is applied by means of a line contact using a plurality of separate heating elements.

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US 1,702,325 discloses a hermetically sealed, lightly constructed metal package, which is folded around the items to be shipped and sealed by fusing or welding the edges or contact parts of the package together.

Therefore, it would be desirable to have a ream wrap that has all the desirable properties of a conventional ream wrap, including a suitable resistance to prevent bursts during handling and storage, but which is also easy to open.

Description of the invention:

The present invention comprises a ream wrap which has all the desirable properties of a conventional ream wrap, including a suitable resistance to prevent bursts during handling and storage, but which is easy to open, and which is defined by the characteristics of the claim 1.

The ream wrap of the invention is wrapped around a stack of paper sheets cut using substantially conventional ream packing equipment, in which the wrap is folded around the stack and the longitudinal seam is sealed in a conventional manner. However, the material at the ends of the ream is secured and sealed together only in selected areas. The sealed areas are sufficient to provide adequate burst resistance, while at the same time they are relatively easy to separate when it is desired to open the ream.

More particularly, the invention comprises a stack of cut paper sheets wrapped with a protective wrapping material containing the stack and folded so that the overlapping flaps of the wrapping material cover opposite ends of the stack, wherein said flaps Overlays are secured and sealed together only in selected areas that comprise a small part of the overlapping flaps, in which the sealed areas have sufficient resistance to bursting to prevent accidental opening of the envelope during handling and storage, but which are relatively Easy to separate when you want to open the wrapper to access the cut sheets of paper.

In a preferred embodiment of the invention, the ream wrap material is heat sealable and the material at the ends of the ream is bonded and sealed in the selected areas by application of heat, preferably between about 115 ° C and 196 ° C. Heat is applied by heating elements designed to properly heat the material to fuse it in the selected areas. The heating elements may take any form and shape but, in a more preferred embodiment, they comprise heating plates having cut-out parts to define relief areas that concentrate heat in the selected areas.

In an even more preferred embodiment, temperature control means are associated with the heating elements to obtain a temperature curve along the length of the heating zone, in which the temperatures at the input and output parts of the area are lower than the temperature in a middle part of the area. This prevents the formation of wrinkles in the wrapping material that could otherwise occur if the same temperature were applied throughout the entire length of the area.

In addition, friction reducing means are associated with the heating elements and / or belts to reduce wear on the ream conveyor belts as they move beyond the heating elements. In the particular examples described herein, the trimmed areas of the heating plates are preferably filled with a low friction material, such as Teflon, all exposed corners and edges are gently rounded, and the heating plates are manufactured or they are coated with a low friction material, such as, for example, nickel-chrome, so that each of the belts slides past a flat, flat, low friction surface.

Brief description of the drawings:

The foregoing, as well as other objects and advantages of the invention, will be apparent from the following detailed description, when considered in conjunction with the accompanying drawings, in which similar reference characters designate similar parts throughout the various views, and in which:

Figure 1 is an end elevation view of a ream of paper wrapped and sealed in a conventional manner.

Figure 2 is an end elevation view of a ream of sealed paper according to the invention.

Figure 3 is a perspective view, from below and from the end, of a ream of wrapped and sealed paper, showing the longitudinal seam extending along the bottom.

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Figure 4 is a front perspective view of a conventional heating plate for heating and fusing the end of the ream wrapper package in Figure 1.

Figure 5 is a slightly enlarged front perspective view of a heating plate according to a more preferred form.

Figure 6 is a front elevational view of the heating plate of Figure 5, showing the positions of the heating elements with electrical resistance on the plate.

Figure 7 is a cross-sectional view of the heating plate of Figure 6, taken along line 7-7.

Figure 8 is a top plan view of the heating plate of Figure 5.

Figure 9 is a perspective view from above, somewhat schematic, of the heating zone of a packaging machine having temperature control means, showing the heating plates, the conveyor belts and the temperature control means in the opposite sides of the area.

Figure 10 is a front perspective view of a second embodiment of the heating plate, in which the trimmed areas extend along the entire width of the plate, defining three heat focus bars, in relief, which They extend along the entire width of the plate, and in which the trimmed areas are left open or not filled.

Figure 11 is a front perspective view of a third embodiment of the heating plate, in which the plate is substantially identical to the plate shown in Figure 10, except that the trimmed areas are filled with a low friction material, Just like Teflon.

Figure 12 is a front elevation view of a set of six heating elements, in which some of the heating elements do not have clipped areas defining heating bars to focus heat.

Figure 13 is a somewhat schematic front perspective view of the sets of six heating plates on each side of the heating zone, in which each plate has individual temperature control means.

Best ways to carry out the invention:

With more specific reference to the drawings, a ream of paper wrapped with any of the conventionally available heat sealable wrappers is generally indicated by reference number 10 in Figure 1. Heat is applied to the entire end surface of the ream wrapped using one or more heating plates 11, as shown in Figure 4, so that all overlay material of the envelope is fused at the ends of the ream. As seen in Figure 3, the longitudinal edges of the wrapping material overlap and secure each other, with an adhesive or by heat sealing, to define a longitudinally contoured seam 12 extending longitudinally from a middle part of the part bottom of the ream.

A ream of paper wrapped and sealed according to the invention is indicated, in general, with the reference number 13 in Figure 2. The material superimposed on the ends of the ream is fused only in selected areas, as indicated by the zones 14 and 15 shaded. The degree of fusion provides adequate strength to prevent accidental opening of the envelope during storage and handling, but is easy to open when desired.

The envelope may comprise any of the commercially available heat sealable materials and, in a specific preferred example, comprises biaxial heat sealable polypropylene film films, in which a film is transparent and has a weight of 18 g / m2 and a thickness of 20 micrometers, and the other film is opaque and has a weight of 22 g / m2 and a thickness of 30 micrometers. The films are laminated together in the converter with a polyol isocyanate adhesive, typically with the transparent film on the inside and the opaque film on the outside of the envelope. It should be understood that different adhesives can be used to laminate the films and that different combinations of weight and thickness can be used for the transparent and opaque films. In addition, a transparent or opaque monolayer film or a material composed of two transparent or opaque films can be used. Similarly, polyethylene can be used instead of polypropylene in the manufacture of the film or films, although the quality of the wrap may be affected. In addition, a polymer filled paper wrap can be used. In addition, a varnish coated polymer wrap and / or a varnish coated paper wrap can be used

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Although any ream wrap material according to the present invention can be used, it is preferable that the ream wrap has a weight, measured according to TAPPI 410, from 0.49 to 0.82 (from 30 to 50), more preferably from 0, 52 to 0.73 (32 to 45), more preferably 0.54 to 0.65 kg / cm2 (33 to 40 pounds / 300 square feet), including any and all intervals and subintervals therein.

Although any ream wrap material according to the present invention can be used, it is preferable that the ream wrap has a thickness, measured according to TAPPI 411, of 38.1 to 101.6 μm (1.5 to 4 thousandths of an inch) , more preferably from 50.8 to 76.2 (from 2 to 3), more preferably from 61 to 66 μm (from 2.4 to 2.6 thousandths of an inch), including any and all intervals and subintervals therein .

Although any ream wrap material according to the present invention can be used, it is preferable that the ream wrap has a tensile strength in the machine direction (MD), measured according to TAPPI 494, from 2.7 to 9 (of 15 to 50), more preferably 3.1 to 7.2 (17 to 40), more preferably 3.4 to 6.3 kg / cm (19 to 35 pounds / inch), including any and all intervals and subintervals in it.

Although any ream wrap material according to the present invention can be used, it is preferable that the ream wrap has a tensile strength in the transverse machine direction (CD), measured according to TAPPI 494, from 2.7 to 10, 8 (15 to 60), more preferably 3.6 to 9.0 (20 to 50), more preferably 4.5 to 8.1 kg / cm (25 to 45 pounds / inch), including any and all intervals and subintervals in it.

Although any ream wrap material according to the present invention can be used, the ream wrap has a burst resistance, measured according to TAPPI 403, from 975 to 1,379 kPa (from 140 to 200 pounds / square inch), more preferably from 1,034 to 1,207 kPa (150 to 175 pounds / square inch).

Although any ream wrap material according to the present invention can be used, it is preferable that the ream wrap has a tear resistance MD, measured according to TAPPI 414, from 5 to 40, more preferably from 10 to 30, more preferably from 15 to 25 gms, including any and all intervals and subintervals in it.

Although any ream wrap material according to the present invention can be used, it is preferable that the ream wrap has a tear resistance CD, measured according to TAPPI 414, from 3 to 30, more preferably from 5 to 25, more preferably from 10 to 20 gms, including any and all intervals and subintervals in it.

Although any ream wrap material according to the present invention can be used, it is preferable that the ream wrap has an MD stiffness, measured according to TAPPI 543, from 5 to 50, more preferably from 10 to 40, more preferably from 15 to 30 mg , including any and all intervals and subintervals in it.

Although any ream wrap material according to the present invention can be used, it is preferable that the ream wrap has a CD stiffness, measured according to TAPPI 543, from 10 to 60, more preferably from 15 to 50, more preferably from 20 to 45 gms , including any and all intervals and subintervals in it.

A more preferred form of the heating plate for heating and fusing a wrap is generally indicated by reference number 16 in Figures 5-8. The plate is made of a suitable heat transmitting material and preferably has a generally rectangular shape, with a front surface 17 oriented towards the end of the ream. In a preferred embodiment, the plate is made of aluminum and has a nickel-chrome coating to reduce friction on the belts 31, 32 that conduct the ream beyond the heating elements (see below). The lower front edge part of the plate is lowered by 18, so that this lowered area does not transmit as much heat to the end of the wrapped ream and a lower edge part 19 of the flap 20 at the end of the ream, so therefore, it remains not attached to the underlying material, defining a free edge that can be grasped to facilitate the opening of the ream. There are also a pair of grooves 21 and 22 formed on the front surface 17, which terminate near the opposite side edges of the plate, in which the first groove 21 (see Figure 7) has a first width W1 and a first distance D1 from the top of the recessed zone 18, and the second slot 22 has a second width W2, greater than the first width, and a distance D2 is separated from the first slot, equal to the separation of the first slot from The lowered area. The recessed area and the grooves define a pair of heat focusing bars 23 and 24 that extend along most of the width of the plate and each of which has a width W3 corresponding to the distances D1 and D2 In this more preferred embodiment, the grooves are filled with a low friction material 25, such as Teflon. It will be noted that the plates do not have sharp edges that are exposed to the tapes, with the front and rear edges of the rounded plates, such as in 28 and 29.

Suitable conventional heating elements or rods, with electrical resistance, (not shown)

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they are received in holes 26 and 27 that extend vertically in the heating plate, approximately equidistant from each other and from the opposite side edges of the plate, so that the heating elements substantially substantially heat the plate. By orienting the grooves and the heating elements vertically, the elements can be replaced from the top of the plates. In conventional heating plates, the heating elements are oriented horizontally. Although any suitable heating element can be used, in a preferred embodiment, the heating elements are 500 and 1,000 watt elements manufactured by Watlow, models number J19J-3220 and J19J

- 2156. The heating elements can be used in any combination to achieve a desired result.

In a specific example of the plate, the recessed zone 18 has a width of approximately 18.5 mm, defining an "ear" or free edge 19 on the flap 20 with a width of approximately 8-10 mm, the distances D1 and D2 first and second and, thus, the widths W3 of the heat focusing bars 23 and 24 are approximately 8 mm, and the widths W1 and W2 of the grooves are approximately 7 mm and 24 mm, respectively. In addition, as shown in Figure 7, it will be noted that the Teflon filling is slightly recessed in slots 21 and 22. This can be done to facilitate the expansion of the filling as it is heated, regardless of whether it is Teflon or some other material. , so that the front surface of the filling is flush with the front surface of the plate. This construction produces zones 14 and 15 fused at the end of the wrapped ream, each of which has a width of approximately 8 mm, and which extend along the width of the ream, separated upwardly from the edge 19 bottom of the flap 20.

It should be noted that although the widths and distances indicated above are preferred embodiments, said widths and distances may be any width and distance, or combination thereof, provided that the ream wrap operates in a manner that offers a compromise between the ease of opening and prevention of bursts during handling and storage. For example, it is preferable that the bursting strength and sealing force of the ream-wrapped package offer a compromise between the bursting strength and the sealing force so as to avoid a bursting during handling and storage, but allows easy grip an unsealed edge of at least one of the overlapping end flaps; take the package by this unsealed edge, detach the package by the unsealed edge to open the end (i.e. the superimposed heat sealed flaps) and access the paper inside.

An apparatus for fusing and sealing the ends of the ream envelope is generally indicated by reference number 30 in Figure 9. The apparatus comprises a heating zone HZ defined by one or more heating plates 16 aligned to the along the opposite sides of the area, and ribbons 31, 32 that slide along the surfaces facing the inside of the heating plates and that engage the opposite ends of the reams 13 wrapped to drive the reams through area. The tapes are made of a material that will transfer heat from the plates to the wrapping material and, in a preferred embodiment, comprise glass fiber coated with polytetrafluoroethylene (PTFE). As seen in this example, there are six heating plates arranged along each of the opposite sides of the area, with heat control means 33, 34 and 35 associated with the respective pairs of plates on each side of the zone (for the sake of clarity, the control means are shown only on one side of the area in this figure) so that a temperature curve can be obtained along the length of the zone. More specifically, the temperature control means, and / or the selection of the appropriate power of the heating element, regulate the temperature at which the plates are heated, so that the plates at the entrance and exit of the zone are heated to a lesser extent than the plates in the middle part of the area. In a specific example, the plates at the inlet and outlet can be heated to approximately 185 ° C, while the plates in the middle part are heated to approximately 195 ° C.

A second embodiment of the plates is indicated, in general, with the reference number 40 in Figure 10. On the plate of this embodiment, there are three open slots 41, 42 and 43, of equal width and separation, which extend completely along the width of the plate, defining three bars 44, 45 and 46 of heat focus, equidistant, all of them of equal width. Otherwise, the plate 40 is constructed and operates substantially identical to the first embodiment described above, except that the grooved areas have a width of 10 mm and a depth of 8 mm, and the sealing areas or the focus bars of heat have a width of 5 mm.

A third embodiment of the heat plate is shown with the reference number 50 in Figure 11. This plate differs from that shown in Figure 10 in that the grooves are filled with a low friction material 51, such as Teflon.

Figure 12 shows an alternative arrangement of the heating plates, in which there are six plates 71-76 arranged along each side of the area, in which the first, fourth and sixth plates 71, 74 and 76 are grooved . The grooved plates 72, 73 and 75 shown in this figure may be identical to the plates

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shown in Figures 10 and / or 11, although any of the plates described herein could be incorporated into this arrangement.

Figure 13 shows another additional arrangement, in which six plates 81-86 are arranged along each side of the heating zone (any of the plates described herein could be used), in which the controllers 81a -81f and 82a-82f separate temperature are associated with each of the twelve plates.

Although the grooves have been described in some of the embodiments as filled with a Teflon material, other materials, for example, ceramic, may be suitable, or the grooves may be left open. The purpose of filling the grooves is to provide a smooth surface that does not unnecessarily wear the

10 tapes or transmit heat. In addition, any number of similar or different heating plates may be used, which have the same or different powers applied thereto, as desired or necessary, and do not have to be limited to the number shown in the drawings.

Although particular embodiments of the invention have been illustrated and described in detail herein, it should be understood that various changes and modifications can be made to the invention without departing from the

The purpose of the invention, as defined by the appended claims.

Claims (3)

E08768262 10-24-2014 1. A stack of cut sheets of paper wrapped with a protective wrapping material (13) that encloses the stack and folded so that the overlapping flaps (20) of the wrapping material cover the opposite ends of the stack, 5 wherein said overlapping flaps (20) are secured and sealed together only in selected areas (14, 15) comprising a small part of the overlapping flaps (20), in which said sealed zones (14, 15) consist of two parallel bands (14, 15) separated by a distance that is greater than the width of each of said bands (14, 15), in which said bands (14, 15) they extend 10 along the width of the stack, said sealed areas (14, 15) have a burst resistance, measured according to TAPPI 403, from 965 to 1,379 kPa (140 and 200 pounds / square inch) to prevent accidental opening of the envelope (13) but at the same time , are relatively easy to separate when it is desired to open the wrapper (13) to access the cut sheets of paper, Said outer overlapping flap (20) comprises an unsealed free edge (19) that can be grasped to facilitate the opening of the stack of wrapped paper sheets wrapped, and wherein said bands (14, 15) are separated from said unsealed free edge (19) of said outer overlapping flap (20). 2. Pile of wrapped paper sheets according to claim 1, wherein: 20 the protective wrapping material (13) is a heat sealable material; and the selected areas (14, 15) are fused together by applying heat to the superimposed material at the ends of the stack. 3. A stack of wrapped paper sheets according to claim 1, wherein the burst resistance, measured according to TAPPI 403, is 1,034 to 1,207 kPa (150 to 175 pounds / square inch). 25 8